944 research outputs found
The role of strengths in anger and conduct problems in maltreated adolescents
Despite multi-type maltreatment, some individuals demonstrate positive adaptation and continue to develop in a healthy way. A multitude of strength factors have been linked to adaptive functioning and resilience, but this has not been adequately examined in maltreated adolescent’s psychosocial functioning. This study sought to examine the role of strengths such as having talents/interests, family relationships, educational support, the role of the recognition and application of these strengths, and the role of multi-type maltreatment on anger control and conduct problems. One hundred and thirty participants (61 males; 69 females) aged 13–19 years old were rated using the Singapore version of Child and Adolescent Needs and Strengths (CANS) tool. The results revealed that certain strengths were associated with anger and conduct problems, but the recognition and application of strengths emerged as a consistently significant predictor for both outcomes. Hence, to understand and apply one’s strengths may be equally as important as merely possessing those strengths. This study extends current understanding of the importance of strengths with a group of maltreated adolescents in an Asian context. Adopting a person-centered and strength-based approach will further enhance the effectiveness of interventions and improve outcomes for maltreated adolescents living in residential care
Quantum Hall to charge-density-wave phase transitions in ABC-trilayer graphene
ABC-stacked trilayer graphene's chiral band structure results in three
() Landau level orbitals with zero kinetic energy. This unique feature
has important consequences on the interaction driven states of the 12-fold
degenerate (including spin and valley) N=0 Landau level. In particular, at many
filling factors a quantum phase transition from
a quantum Hall liquid state to a triangular charge density wave occurs as a
function of the single-particle induced LL orbital splitting .
This phase transition should be characterized by a re-entrant integer quantum
Hall effect with the Hall conductivity corresponding to the {\it adjacent}
interaction driven integer quantum Hall plateau.Comment: 4+ page
A correction method for large deflections of cantilever beams with a modal approach
Modal-based reduced-order models are preferred for modeling structures due to their computational efficiency in engineering problems. One of the important limitations of the classic modal approaches is that they are geometrically linear. This study proposes a fast correction method to account for geometric nonlinearities which stem from large deflections in cantilever beams. The method relies on pre-computed correction terms and thus adds negligibly small extra computational efforts during the time domain response analyses. The accuracy of the method is examined on a straight-beam model and International Energy Agency (IEA) 15 MW wind turbine blade model. The results show that the proposed method increases the accuracy of modal approaches significantly in secondary deflections due to nonlinearities such as axial and torsional motions for the two studied cases.</p
Quantum Hall Effects in Graphene-Based Two-Dimensional Electron Systems
In this article we review the quantum Hall physics of graphene based
two-dimensional electron systems, with a special focus on recent experimental
and theoretical developments. We explain why graphene and bilayer graphene can
be viewed respectively as J=1 and J=2 chiral two-dimensional electron gases
(C2DEGs), and why this property frames their quantum Hall physics. The current
status of experimental and theoretical work on the role of electron-electron
interactions is reviewed at length with an emphasis on unresolved issues in the
field, including assessing the role of disorder in current experimental
results. Special attention is given to the interesting low magnetic field limit
and to the relationship between quantum Hall effects and the spontaneous
anomalous Hall effects that might occur in bilayer graphene systems in the
absence of a magnetic field
Coulomb impurity under magnetic field in graphene: a semiclassical approach
We address the problem of a Coulomb impurity in graphene in the presence of a
perpendicular uniform magnetic field. We show that the problem can be solved
below the supercritical impurity magnitude within the WKB approximation.
Without impurity the semiclassical energies correctly reproduce the Landau
level spectrum. For a given Landau level the WKB energy depends on the absolute
value of angular momentum in a way which is consistent with the exact
diagonalization result. Below the supercritical impurity magnitude, the WKB
solution can be expanded as a convergent series in powers of the effective fine
structure constant. Relevance of our results to validity of the widely used
Landau level projection approximation is discussed.Comment: 10 pages, 5 figure
Applying System Engineering to Pharmaceutical Safety
While engineering techniques are used in the development of medical devices and have been applied to individual healthcare processes, such as the use of checklists in surgery and ICUs, the application of system engineering techniques to larger healthcare systems is less common. System safety is the part of system engineering that uses modeling and analysis to identify hazards and to design the system to eliminate or control them. In this paper, we demonstrate how to apply a new, safety engineering static and dynamic modeling and analysis approach to healthcare systems. Pharmaceutical safety is used as the example in the paper, but the same approach is potentially applicable to other complex healthcare systems. System engineering techniques can be used in re-engineering the system as a whole to achieve the system goals, including both enhancing the safety of current drugs while, at the same time, encouraging the development of new drugs
Estimated glomerular filtration rate and risk of poor outcomes after stroke
We thank the data team of the Norfolk and Norwich University Hospital Stroke Services.Peer reviewedPostprin
Energy gaps at neutrality point in bilayer graphene in a magnetic field
Utilizing the Baym-Kadanoff formalism with the polarization function
calculated in the random phase approximation, the dynamics of the
quantum Hall state in bilayer graphene is analyzed. Two phases with nonzero
energy gap, the ferromagnetic and layer asymmetric ones, are found. The phase
diagram in the plane , where is a
top-bottom gates voltage imbalance, is described. It is shown that the energy
gap scales linearly, $\Delta E\sim 14 B[T]K, with magnetic field.Comment: 5 pages, 3 figures, title changed, references added, JETP Letters
versio
Rheumatic mitral valve disease is associated with worse outcomes in stroke:A Thailand National Database Study
Background and purpose: Rheumatic valvular heart disease is associated with increased risk of cerebrovascular events, although there are limited data on the prognosis of patients with rheumatic mitral valve disease (RMVD) following stroke. Methods: We examined the association between RMVD and both serious and common cardiovascular and non-cardiovascular (respiratory and infective) complications in a cohort of hospitalised stroke patients based in Thailand. Factors associated with in-hospital mortality were also explored. Data were obtained from a National Insurance Database. All hospitalised strokes between 1st October 2004 and 31st January 2013 were included in the current study. Characteristics and outcomes were compared for RMVD and non-RMVD patients. Logistic regression, propensity score matching, and multivariate models were employed to assess study outcomes. Results: In total, 594,681 patients (mean (SD) age=64(14.5) years) with a diagnosis of stroke (ischemic = 306,154; hemorrhagic= 195,392; undetermined = 93,135) were included in this study, of whom 5461 had RMVD. Results from primary analyses showed that following ischemic stroke, and controlling for potential confounding covariates, RMVD was associated (P<0.001) with increased odds for cardiac arrest (OR(95%CI)=2.13(1.68-2.70)), shock (2.13(1.64-2.77)), arrhythmias (1.70(1.21-2.39)), respiratory failure (2.09(1.87-2.33)), pneumonia (2.00(1.81-2.20)), and sepsis (1.39(1.19-1.63)). In hemorrhagic stroke patients, RMVD was associated with increased odds (fully adjusted model) for respiratory failure (1.26(1.01-1.57)), and in patients with undetermined stroke, RMVD was associated with increased odds (fully adjusted analyses) for shock (3.00(1.46-6.14)), respiratory failure (2.70(1.91-3.79)), and pneumonia (2.42(1.88-3.11)). Conclusions: RMVD is associated with development of cardiac arrest, shock, arrhythmias, respiratory failure, pneumonia, and sepsis following acute stroke
- …